Intelligent moving shooting target

ABSTRACT

An intelligent moving shooting target includes a shooting target base, a shooting target frame and a net rack. The shooting target base includes a driving base, a driven base and connecting tubes. Both ends of the connecting tubes are detachably connected with sidewalls of the driving base and the driven base. Lower ends of the driving base and the driven base are provided with wheels. A driving device is provided in the driving base. The driving device is connected with the wheels at the lower end of the driving base, and drives motion of the wheels at the lower end of the driving base. The shooting target frame is detachably mounted vertically on the shooting target base, and includes several horizontal tubes, vertical tubes, and connectors. The net rack is detachably mounted on the shooting target frame.

CROSS REFERENCE TO RELATED APPLICATIONS

The present application claims the benefit of Chinese Patent ApplicationNo. 202020394048.6 filed on Mar. 24, 2020, the contents of which areincorporated herein by reference in their entirety.

TECHNICAL FIELD

The present application relates to the field of shooting games and toys,in particular to an intelligent moving shooting target.

BACKGROUND TECHNOLOGY

Shooting games have always been children's favorite games. Toy guns, toybows and arrows are very popular among children, and are generally usedin games and sports activities. The market has many bullet-shooting toyguns, toy bows and arrows, and other shooting toys with targets tocreate a sense of reality, thereby making the shooting games moreattractive to children. The existing shooting game targets are generallyfixed targets and would not automatically move. Thus, its shootingdifficulty is low and its game experience is poor. Accidental injury bya bullet that is shot out can easily occur when the target is beingmoved manually.

Therefore, it is necessary to provide an intelligent moving shootingtarget to solve the above technical problems.

SUMMARY

The present application provides an intelligent moving shooting target.A moving and detachable shooting target base, a detachable shootingtarget frame mounted on the shooting target base, and a detachable netrack mounted on the shooting target frame as a shooting target are usedto solve the problems of the shooting target in the existing technology.Existing shooting targets are immovable, complicated in structure,occupying large space, non-detachable, inconvenience in carrying, andunreasonable in distribution of various components.

In order to solve the above technical problems, the technical scheme ofthe present disclosure is an intelligent moving shooting targetincluding:

-   -   a shooting target base, the shooting target base including a        driving base, a driven base, and connecting tubes, both ends of        the connecting tubes are detachably connected with sidewalls of        the driving base and the driven base, lower ends of the driving        base and the driven base are provided with wheels, a driving        device is provided in the driving base, the driving device is        connected with the wheels at the lower end of the driving base,        and drives motion of the wheels at the lower end of the driving        base;    -   a shooting target frame having a rectangular frame structure and        being detachably mounted vertically on the shooting target base,        the shooting target frame including several horizontal tubes,        vertical tubes, and connectors, the horizontal tubes of the        frame and the vertical tubes of the frame are jointed together        by the connectors for support and fixation; and    -   a net rack being rectangular in shape and detachably mounted on        the shooting target frame, and having a middle zone provided        with a net pocket, the net pocket is used to collect an object        that is shot out.

In the intelligent moving shooting target mentioned in the presentapplication, a center and two ends of upper ends of the shooting targetbase are provided with first sockets, two ends of the sidewalls of theshooting target base are provided with second sockets, the shootingtarget frame being detachably inserted into the first sockets atcorresponding positions on the driving base and the driven base, theconnecting tubes being detachably inserted into the second sockets atcorresponding positions on the driving base and the driven base.

In the intelligent moving shooting target mentioned in the presentapplication, the first sockets have an inner diameter that is slightlylarger than an outer diameter of the vertical tubes of the frame,projected first ribs are provided in the first sockets, the secondsockets have an inner diameter that is slightly larger than an outerdiameter of the connecting tubes, projected second ribs are provided inthe second sockets, the first ribs are used for clamping the verticaltubes of the frame, and the second ribs are used for clamping theconnecting tubes.

In the intelligent moving shooting target mentioned in the presentapplication, the edges of the net rack are provided with connectingsleeves, and the connecting sleeves are wrapped around and connected tothe shooting target frame.

In the intelligent moving shooting target mentioned in the presentapplication, the driving device includes a drive power source mounted inthe driving base for providing power source, a circuit board fixed inthe driving base by screws for controlling a circuit, a motor mounted inthe driving base for providing motive power, an axle provided in thedriving base and connected to the wheels for driving the wheels torotate, a gear set connected to an output end of the motor and the axlefor power transmission, and a fixing frame for fixing the motor, thegear set, and the axle in the driving base.

In the intelligent moving shooting target mentioned in the presentapplication, the driving base includes an upper housing and a baseplate, the upper housing and the base plate are connected by screws, thebase plate is provided with two rectangular through-holes at positionsthat correspond to the wheels.

In the intelligent moving shooting target mentioned in the presentapplication, a rib plate is provided in the upper housing, the rib plateis provided with a first groove, the fixing frame is provided with asecond groove, the motor is fitted in the first groove, the secondgroove of the fixing frame laid over the motor, and the fixing frame isfixedly connected to the upper housing by screws.

In the intelligent moving shooting target mentioned in the presentapplication, the driving base is provided with a switch, the switch isconnected to the circuit board, the switch is provided with three gearpositions, including a shutdown gear and two moving gears, each of whichhaving a different mode of motion.

In the intelligent moving shooting target mentioned in the presentapplication, the intelligent moving shooting target includes a remotecontrol, the driving base is provided with a receiver, the receiver isconnected to the circuit board, the remote control is used to controltime-delay starting and instant shutdown of the intelligent movingshooting target.

In the intelligent moving shooting target mentioned in the presentapplication, the vertical tubes of the frame are hollow tubes disposedin a vertical direction, the horizontal tubes of the frame are hollowtubes disposed in a horizontal direction, the connectors include two-wayconnectors and three-way connectors; wherein the shooting target frameis divided into upper, middle and lower layers, lower ends of thevertical tubes of the frame in the lower layer are detachably mounted onthe shooting target base, both ends of the horizontal tube of the framein the lower layer are connected to upper ends of the vertical tubes ofthe frame in the lower layer, lower ends of the vertical tubes of theframe in the middle layer are connected to the vertical tubes of theframe in the lower layer and the horizontal tube of the frame in thelower layer by the three-way connectors, both ends of the horizontaltube of the frame in the middle layer are connected to upper ends of thevertical tubes of the frame in the middle layer, and lower ends of thevertical tubes of the frame in the upper layer are connected to thevertical tubes of the frame in the middle layer and the horizontal tubeof the frame in the middle layer by the three-way connectors, both endsof the horizontal tube of the frame in the upper layer are connected toupper ends of the vertical tubes of the frame in the upper layer by thetwo-way connectors.

Compared with the existing technology, the beneficial effects of thepresent disclosure are: through the use of a moving and detachableshooting target base, a detachable shooting target frame provided on theshooting target base, and a detachable net rack provided on the shootingtarget frame, the intelligent moving shooting target of the presentapplication can increase the difficulty of the shooting game and providea good gaming experience. It is simple in structure, easy todisassemble, occupying a small space and easy to carry.

BRIEF DESCRIPTION OF THE DRAWINGS

In order to more clearly explain the embodiment of the presentdisclosure or the technical scheme in the existing technology, thefollowing is a brief description of the drawings to be used in theembodiment, and the drawings described below are only the correspondingdrawings of some implementing examples of the present disclosure.

FIG. 1 is a front view of an intelligent moving shooting target of thepresent application.

FIG. 2 shows the structure of the intelligent moving shooting target ofthe present application after removal of a net rack.

FIG. 3 is a right side view of the intelligent moving shooting target ofthe present application.

FIG. 4 is a top view of the intelligent moving shooting target of thepresent application.

FIG. 5 is a left side view of a driving base of the intelligent movingshooting target of the present application.

FIG. 6 is a diagram of the structure of a first socket of theintelligent moving shooting target of the present application.

FIG. 7 is a diagram of the structure of an upper housing and a drivingdevice of the intelligent moving shooting target of the presentapplication.

FIG. 8 is a diagram of the structure of a base plate of the intelligentmoving shooting target of the present application.

FIG. 9 is a diagram of the structure of a rib plate of the intelligentmoving shooting target of the present application.

FIG. 10 is a front view of a fixing frame of the intelligent movingshooting target of the present application.

FIG. 11 is an elevated view of the fixing frame of the intelligentmoving shooting target of the present application.

Among them, 1—shooting target base, 2—shooting target frame, 3—net rack,11—driving base, 12—driven base, 13—connecting tube, 14—wheel, 15—firstsocket, 16—second socket, 17—switch, 18—power source box, 19—receiver,21—vertical tube of the frame, 22—horizontal tube of the frame,23—three—way connector, 24—two-way connector, 31—net pocket,32—connecting sleeve, 111—upper housing, 112—base plate, 113—circuitboard, 114—axle, 115—fixing frame, 116—motor, 117—gear set, 118—ribplate, 151—first rib, 1121—through hole, 1151—second groove, 1152—motorshaft opening, 1181—first groove.

DETAILED DESCRIPTION OF THE EMBODIMENTS

The following will be combined with the drawings of the embodiments ofthe present application, and the technical scheme of the embodiments ofthe present application will be described clearly and completely. It isclear that the embodiments described are only some of the embodiments ofthe present disclosure, and not all of the embodiments. Based on theembodiments in the present application, all other embodiments obtainedby a person skilled in the art without making creative labour belong tothe scope of protection of the present disclosure.

The directional terms mentioned in the present application, such as“upper”, “lower”, “front”, “rear”, “left”, “right”, “inside”, “outside”,“side”, “top” and “bottom”, are only references to the orientation inthe drawings, and the directional terms are used to describe andunderstand the present disclosure, and not to limit the presentdisclosure.

The terms “first” and “second” in the present application are used onlyfor descriptive purposes and cannot be understood as indicating orimplying relative importance and not a restriction in the order.

In the present application, unless otherwise expressly specified anddefined, the terms “connect”, “mount”, “joint” and “fix” should beinterpreted broadly. For example, they may be fixedly connected, ordetachably connected, or integrated. They may be mechanically connectedor electrically connected. They may be directly connected or indirectlyconnected through an intermediary. It may be internal communication oftwo elements, or interaction relationship of two elements. For a personhaving ordinary skill in the art, the specific meaning of the aboveterms in the present application can be understood according to thespecific situation.

The existing shooting game targets are generally fixed targets and wouldnot automatically move. Thus, its shooting difficulty is low and itsgame experience is poor. Accidental injury by a bullet that is shot outmay easily occur when the target is being moved manually. The movingshooting targets in the existing technology are usually complicated instructure, occupying large space, non-detachable, and inconvenience incarrying.

The following is a preferred embodiment of an intelligent movingshooting target provided in the present application that can solve theabove technical problems.

Referring to FIGS. 1, 2, 3 and 4, FIG. 1 is a front view of theintelligent moving shooting target of the present application, FIG. 2shows the structure of the intelligent moving shooting target of thepresent application after removal of the net rack, FIG. 3 is a rightside view of the intelligent moving shooting target of the presentapplication, and FIG. 4 is a top view of the intelligent moving shootingtarget of the present application.

In the figures, elements with similar structure are represented by thesame reference number.

The present application provides an intelligent moving shooting target,which includes a shooting target base 1, a shooting target frame 2, anda net rack 3.

Among them, the shooting target base 1 includes a driving base 11, adriven base 12, and connecting tubes 13. Both ends of the connectingtubes 13 can be detachably connected with the sidewalls of the drivingbase 11 and the driven base 12. The lower ends of the driving base 11and the driven base 12 are provided with wheels 14. The driving base 11is provided with a driving device. The driving device is connected withthe wheels 14 at the lower end of the driving base 11, and drives themotion of the wheels 14 at the lower end of the driving base 11.

The shooting target frame 2 has a rectangular frame structure and can bedetachably mounted vertically on the shooting target base 1. Theshooting target frame 2 includes several horizontal tubes 22, verticaltubes 21, and connectors. The horizontal tubes 22 of the frame and thevertical tubes 21 of the frame are jointed together by the connectorsfor support and fixation. The vertical tubes 21 of the frame are hollowtubes disposed in a vertical direction, and the horizontal tubes 22 ofthe frame are hollow tubes disposed in a horizontal direction. Theconnectors include two-way connectors 24 and three-way connectors 23.The shooting target frame 2 is divided into upper, middle and lowerlayers. The lower ends of the vertical tubes 21 of the frame in thelower layer can be detachably mounted on the shooting target base 1.Both ends of the horizontal tube 22 of the frame in the lower layer areconnected to the upper ends of the vertical tubes 21 of the frame in thelower layer. The lower ends of the vertical tubes 21 of the frame in themiddle layer are connected to the vertical tubes 21 of the frame in thelower layer and the horizontal tube 22 of the frame in the lower layerby the three-way connectors 23. Both ends of the horizontal tube 22 ofthe frame in the middle layer are connected to the upper ends of thevertical tubes 21 of the frame in the middle layer, and the lower endsof the vertical tubes 21 of the frame in the upper layer are connectedto the vertical tubes 21 of the frame in the middle layer and thehorizontal tube 22 of the frame in the middle layer by the three-wayconnectors 23. Both ends of the horizontal tube 22 of the frame in theupper layer are connected to the upper ends of the vertical tubes 21 ofthe frame in the upper layer by the two-way connectors 24.

The net rack 3 is rectangular in shape and is detachably mounted on theshooting target frame 2. The net rack 3 has a middle zone provided witha net pocket 31. The net pocket 31 is used to collect an object that isshot out. The edges of the net rack 3 are provided with connectingsleeves 32, and the connecting sleeves 32 are wrapped around andconnected to the shooting target frame 2. The connecting sleeves 32 aresleeved on the horizontal tubes 22 of the frame and the vertical tubes21 of the frame. The connecting sleeve 32 at a shorter side of the netrack 3 is provided with a hook-and-loop fastener. When the connectingsleeve 32 with the hook-and-loop fastener is mounted at the top of athree-layer shooting target frame 2, the horizontal tube 22 of the framein the lower layer is inserted in the connecting sleeve 32, and thevertical tubes 21 of the frame in the middle layer and the verticaltubes 21 of the frame in the upper layer are inserted in the connectingsleeves. The connecting sleeve 32 with the hook-and-loop fastener isfinally installed. The hook-and-loop fastener is first unfastened,passed through the horizontal tube 22 of the frame in the upper layer,and then the hoop-and-loop fastener is fastened. Finally, the connectingsleeve 32 with the hook-and-loop fastener is connected. This facilitatesa smooth installation of the net rack 3 on the shooting target frame 2.

Through the use of a moving and detachable shooting target base 1, adetachable shooting target frame 2 provided on the shooting target base1, and a detachable net rack 3 provided on the shooting target frame 2as a shooting target, it can increase the difficulty of the shootinggame and provide a good game experience. It is simple in structure, easyto disassemble, occupying a small space and portable.

Referring to FIGS. 4, 5 and 6, FIG. 5 is a left side view of the drivingbase of the intelligent moving shooting target of the presentapplication, and FIG. 6 is a diagram of the structure of the firstsocket of the intelligent moving shooting target of the presentapplication.

A center and two ends of the upper ends of the shooting target base 1are provided with first sockets 15. Two ends of the sidewalls of theshooting target base 1 are provided with second sockets 16. The shootingtarget frame 2 can be detachably inserted into the first sockets 15 atcorresponding positions on the driving base 11 and the driven base 12.The connecting tubes 13 can be detachably inserted into the secondsockets 16 at corresponding positions on the driving base 11 and thedriven base 12. The first sockets 15 have an inner diameter that isslightly larger than an outer diameter of the vertical tubes 21 of theframe. Projected first ribs 151 are provided in the first sockets 15.The upper ends of the first ribs 151 are provided with barbs. Thevertical tubes 21 of the frame are elastic. When the vertical tubes 21of the frame are inserted into the first sockets 15, the vertical tubes21 of the frame are squeezed by the first ribs 151, and slightdeformation is formed so that the connection is tighter. The secondsockets 16 have an inner diameter that is slightly larger than an outerdiameter of the connecting tubes 13. Projected second ribs are providedin the second sockets 16. The structure of the first ribs 151 and thestructure of the second ribs are similar. The first ribs 151 are usedfor clamping the vertical tubes 21 of the frame, and the second ribs areused for clamping the connecting tubes 13.

Referring to FIGS. 4 and 7, FIG. 7 is a diagram of the structure of theupper housing and the driving device of the intelligent moving shootingtarget of the present application. The driving device includes a drivepower source, a circuit board 113, a motor 116, an axle 114, a gear set117 and a fixing frame 115. A power source box 18 is mounted in thedriving base 11. The drive power source can be replaceably provided inthe power source box 18 for providing power source. The circuit board113 is fixed in the driving base 11 by screws for controlling a circuit.The motor 116 is mounted in the driving base 11 for providing motivepower. The axle 114 is provided in the driving base 11 and connected tothe wheels 14 for driving the wheels 14 to rotate. The gear set 117 isconnected to an output end of the motor 116 and the axle 114 for powertransmission. The fixing frame 115 is used for fixing the motor 116, thegear set 117, and the axle 114 in the driving base 11.

Referring to FIGS. 8, 9, 10 and 11, FIG. 8 is a diagram of the structureof the base plate of the intelligent moving shooting target of thepresent application, FIG. 9 is a diagram of the structure of the ribplate of the intelligent moving shooting target of the presentapplication, FIG. 10 is a front view of the fixing frame of theintelligent moving shooting target of the present application, and FIG.11 is an elevated view of the fixing frame of the intelligent movingshooting target of the present application.

The driving base 11 includes an upper housing 111 and a base plate 112.The upper housing 111 and the base plate 112 are connected by screws.The base plate 112 is provided with two rectangular through-holes 1121at positions that correspond to the wheels 14. A rib plate 118 isprovided in the upper housing 111. The rib plate 118 is provided with afirst groove 1181, and the fixing frame 115 is provided with a secondgroove 1151. The sidewalls of the second groove 1151 are provided withmotor shaft openings 1152. The motor 116 is fitted in the first groove1181. The second groove 1151 of the fixing frame 115 is laid over themotor 116. The output end of the motor 116 is connected with the gearset 117 in the fixing frame 115 through the motor shaft openings 1152.The fixing frame 115 is fixedly connected to the upper housing 111 byscrews.

Referring to FIGS. 4 and 7, the driving base 11 is provided with aswitch 17. The switch 17 is connected to the circuit board 113. Theswitch 17 is provided with three gear positions, including a shutdowngear and two moving gears, each of which having a different mode ofmotion. When the moving gear near the shutdown gear is switched on, theintelligent moving shooting target first moves a distance to the leftand then automatically turns around and moves to the right, moves adistance to the right and then automatically turns around and moves tothe left, and back and forth. When the moving gear far away from theshutdown gear is switched on, the intelligent moving shooting targetfirst moves a distance to the left, pauses for a moment and thenautomatically turns around and moves to the right, and moves a distanceto the right, pauses for a moment and then automatically turns aroundand moves to the left, and back and forth. The intelligent movingshooting target includes a remote control. The driving base 11 isprovided with a receiver 19. The receiver 19 is connected to the circuitboard 113. The remote control is used to control time-delay starting andinstant shutdown of the intelligent moving shooting target.

The working principle of the present disclosure is that the connectingtubes 13 are inserted into the second sockets 16 on the sidewalls of thedriving base 11 and the driven base 12. The vertical tubes 21 of theframe in the lower layer are inserted into the first sockets 15 atcorresponding positions on the driving base 11 and the driven base 12.The horizontal tube 22 of the frame in the lower layer is passed throughthe connecting sleeve 32 at the lower end of the net rack 3. The twoends of the horizontal tube 22 of the frame in the lower layer areconnected with the upper ends of the vertical tubes 21 of the frame inthe lower layer through the three-way connectors 23. The vertical tubes21 of the frame in the middle layer are inserted into the connectingsleeves 32 on two sides of the net rack 3. The vertical tubes 21 of theframe in the middle layer are connected with the horizontal tube 22 ofthe frame in the lower layer and the vertical tubes 21 of the frame inthe lower layer through the three-way connectors 23. The two ends of thehorizontal tube 22 of the frame in the middle layer are connected withthe upper ends of the vertical tubes 21 of the frame in the middle layerthrough the three-way connectors 23. The vertical tubes 21 of the framein the upper layer are inserted into the connecting sleeves 32 on thetwo sides of the net rack 3. The lower ends of the vertical tubes 21 ofthe frame in the upper layer are connected with the horizontal tube 22of the frame in the middle layer and the upper ends of the verticaltubes 21 of the frame in the middle layer through the three-wayconnectors 23. The horizontal tube 22 of the frame in the upper layer isconnected with the upper ends of the vertical tubes 21 of the frame inthe upper layer through the two-way connectors 24. A hook-and-loopfastener of the connecting sleeve 32 at the upper end of the net rack 3is unfastened, passed through the horizontal tube 22 of the frame in theupper layer, and then the hoop-and-loop fastener is fastened.

When the switch on the driving base 11 is switched to the moving gears,the intelligent moving shooting target starts to move. The remotecontrol is used to control time-delay starting and instant shutdown ofthe intelligent moving shooting target.

In this way, the assembly and working process of a preferred embodimentof the intelligent moving shooting target is completed.

In summary, although a preferred embodiment of the present disclosurehas been disclosed above, the above-mentioned preferred embodiment isnot used to limit the present disclosure. A person having ordinary skillin the art can make various changes and modifications without departingfrom the spirit and scope of the present disclosure. Hence, the scope ofprotection of the present disclosure is defined according to the claims.

What is claimed is:
 1. An intelligent moving shooting target,comprising: a shooting target base, the shooting target base comprisinga driving base, a driven base and connecting tubes, wherein both ends ofthe connecting tubes are detachably connected with sidewalls of thedriving base and the driven base, lower ends of the driving base and thedriven base are provided with wheels, a driving device is provided inthe driving base, the driving device is connected with the wheels at thelower end of the driving base and drives motion of the wheels at thelower end of the driving base; a shooting target frame having arectangular frame structure and being detachably mounted vertically onthe shooting target base, the shooting target frame comprising severalhorizontal tubes, vertical tubes, and connectors, the horizontal tubesof the frame and the vertical tubes of the frame are jointed together bythe connectors for support and fixation; and a net rack beingrectangular in shape and detachably mounted on the shooting targetframe, and having a middle zone provided with a net pocket, the netpocket being used to collect an object that is shot out.
 2. Theintelligent moving shooting target according to claim 1, wherein acenter and two ends of upper ends of the shooting target base areprovided with first sockets, two ends of the sidewalls of the shootingtarget base are provided with second sockets, the shooting target framebeing detachably inserted into the first sockets at correspondingpositions on the driving base and the driven base, the connecting tubesbeing detachably inserted into the second sockets at correspondingpositions on the driving base and the driven base.
 3. The intelligentmoving shooting target according to claim 2, wherein the first socketshave an inner diameter that is slightly larger than an outer diameter ofthe vertical tubes of the frame, projected first ribs are provided inthe first sockets, the second sockets have an inner diameter that isslightly larger than an outer diameter of the connecting tubes,projected second ribs are provided in the second sockets, the first ribsare used for clamping the vertical tubes of the frame, and the secondribs are used for clamping the connecting tubes.
 4. The intelligentmoving shooting target according to claim 1, wherein edges of the netrack are provided with connecting sleeves, and the connecting sleevesare wrapped around and connected to the shooting target frame.
 5. Theintelligent moving shooting target according to claim 1, wherein thedriving device comprises: a drive power source mounted in the drivingbase for providing power source; a circuit board fixed in the drivingbase by screws for controlling a circuit; a motor mounted in the drivingbase for providing motive power; an axle provided in the driving baseand connected to the wheels for driving the wheels to rotate; a gear setconnected to an output end of the motor and the axle for powertransmission; and a fixing frame for fixing the motor, the gear set, andthe axle in the driving base.
 6. The intelligent moving shooting targetaccording to claim 5, wherein the driving base comprises an upperhousing and a base plate, the upper housing and the base plate areconnected by screws, the base plate is provided with two rectangularthrough-holes at positions that correspond to the wheels.
 7. Theintelligent moving shooting target according to claim 6, wherein a ribplate is provided in the upper housing, the rib plate is provided with afirst groove, the fixing frame is provided with a second groove, themotor is fitted in the first groove, the second groove of the fixingframe laid over the motor, and the fixing frame is fixedly connected tothe upper housing by screws.
 8. The intelligent moving shooting targetaccording to claim 5, wherein the driving base is provided with aswitch, the switch is connected to the circuit board, the switch isprovided with three gear positions, including a shutdown gear and twomoving gears, each of which having a different mode of motion.
 9. Theintelligent moving shooting target according to claim 5, wherein theintelligent moving shooting target comprises a remote control, thedriving base is provided with a receiver, the receiver is connected tothe circuit board, the remote control is used to control time-delaystarting and instant shutdown of the intelligent moving shooting target.10. The intelligent moving shooting target according to claim 1, whereinthe vertical tubes of the frame are hollow tubes disposed in a verticaldirection, the horizontal tubes of the frame are hollow tubes disposedin a horizontal direction, the connectors include two-way connectors andthree-way connectors; wherein the shooting target frame is divided intoupper, middle and lower layers, lower ends of the vertical tubes of theframe in the lower layer are detachably mounted on the shooting targetbase, both ends of the horizontal tube of the frame in the lower layerare connected to upper ends of the vertical tubes of the frame in thelower layer, lower ends of the vertical tubes of the frame in the middlelayer are connected to the vertical tubes of the frame in the lowerlayer and the horizontal tube of the frame in the lower layer by thethree-way connectors, both ends of the horizontal tube of the frame inthe middle layer are connected to upper ends of the vertical tubes ofthe frame in the middle layer, and lower ends of the vertical tubes ofthe frame in the upper layer are connected to the vertical tubes of theframe in the middle layer and the horizontal tube of the frame in themiddle layer by the three-way connectors, and both ends of thehorizontal tube of the frame in the upper layer are connected to upperends of the vertical tubes of the frame in the upper layer by thetwo-way connectors.